SparseLabelOp#
- class SparseLabelOp(data, *, copy=True, validate=True)[fuente]#
Bases:
LinearMixin
,AdjointMixin
,GroupMixin
,TolerancesMixin
,ABC
,Mapping
The base class for sparse second-quantized operators.
This class generalizes the storing of operators down to a mapping from string-based labels to coefficients. No assumptions are to be made about the contents of the string keys, which is entirely left up to concrete subclasses of this base.
Since this is an abstract base class, we cannot show concrete computation examples here, but operators implementing this interface will support:
linear operations such as addition and scalar multiplication
operator multiplication such as composition and tensor products
transposition, conjugation and (by extension) the
adjoint()
equality and equivalence (using the
atol
andrtol
tolerances) comparisons
Furthermore, several general utility methods exist which are documented below.
Nota
A SparseLabelOp can contain
qiskit.circuit.ParameterExpression
objects as coefficients. However, a SparseLabelOp containing parameters does not support the following methods:equiv
induced_norm
- Parámetros:
data (Mapping[str, _TCoeff]) – the operator data, mapping string-based keys to numerical values.
copy (bool) – when set to False the
data
will not be copied and the dictionary will be stored by reference rather than by value (which is the default;copy=True
). Note, that this requires you to not change the contents of the dictionary after constructing the operator. This also impliesvalidate=False
. Use with care!validate (bool) – when set to False the
data
keys will not be validated. Note, that the SparseLabelOp base class, makes no assumption about the data keys, so will not perform any validation by itself. Only concrete subclasses are encouraged to implement a key validation method. Disable this setting with care!
- Muestra:
QiskitNatureError – when an invalid key is encountered during validation.
Attributes
- atol = 1e-08#
- register_length#
Returns the register length
- rtol = 1e-05#
Methods
- argsort(*, weight=False)[fuente]#
Returns the keys which sort this operator.
- Parámetros:
weight (bool) – when True, the returned keys will sort this operator according to the coefficient weights of the stored terms; when False, the keys will sort the operator by its keys (i.e. lexicographically).
- Devuelve:
The sequence of keys which sort this operator.
- Tipo del valor devuelto:
- assign_parameters(parameters)[fuente]#
Assign parameters to new parameters or values.
- Parámetros:
parameters (Mapping[ParameterExpression, complex | ParameterExpression]) – The mapping from parameters to new parameters or values.
- Devuelve:
A new operator with the parameters assigned.
- Tipo del valor devuelto:
- chop(atol=None)[fuente]#
Chops the real and imaginary parts of the operator coefficients.
This function separately chops the real and imaginary parts of all coefficients to the provided tolerance. Parameters are chopped only if they are exactly zero.
- abstract compose(other, qargs=None, front=False)[fuente]#
Returns the operator composition with another operator.
- Parámetros:
other (SparseLabelOp) – the other operator.
qargs (None) – UNUSED.
front (bool) – If True composition uses right operator multiplication, otherwise left multiplication is used (the default).
- Devuelve:
The operator resulting from the composition.
- Tipo del valor devuelto:
Nota
Composition (
&
) by default is defined as left matrix multiplication for matrix operators, while@
(equivalent todot()
) is defined as right matrix multiplication. This means thatA & B == A.compose(B)
is equivalent toB @ A == B.dot(A)
whenA
andB
are of the same type.Setting the
front=True
keyword argument changes this to right matrix multiplication which is equivalent to thedot()
methodA.dot(B) == A.compose(B, front=True)
.
- conjugate()[fuente]#
Returns the conjugate of the
SparseLabelOp
.- Devuelve:
The complex conjugate of the starting
SparseLabelOp
.- Tipo del valor devuelto:
- dot(other, qargs=None)#
Return the right multiplied operator self * other.
- Parámetros:
other (Operator) – an operator object.
qargs (list or None) – Optional, a list of subsystem positions to apply other on. If None apply on all subsystems (default: None).
- Devuelve:
The right matrix multiplied Operator.
- Tipo del valor devuelto:
Operator
Nota
The dot product can be obtained using the
@
binary operator. Hencea.dot(b)
is equivalent toa @ b
.
- equiv(other, *, atol=None, rtol=None)[fuente]#
Check equivalence of two
SparseLabelOp
instances up to an accepted tolerance.- Parámetros:
other (SparseLabelOp) – the second
SparseLabelOp
to compare with this instance.atol (float | None) – Absolute numerical tolerance. The default behavior is to use
self.atol
.rtol (float | None) – Relative numerical tolerance. The default behavior is to use
self.rtol
.
- Devuelve:
True if operators are equivalent, False if not.
- Muestra:
ValueError – Raised if either operator contains parameters
- Tipo del valor devuelto:
- abstract expand(other)[fuente]#
Returns the reverse-order tensor product with another operator.
- Parámetros:
other (SparseLabelOp) – the other operator.
- Devuelve:
The operator resulting from the tensor product, \(othr \otimes self\).
- Tipo del valor devuelto:
- abstract classmethod from_polynomial_tensor(tensor)[fuente]#
Constructs the operator from a
PolynomialTensor
.- Parámetros:
tensor (PolynomialTensor) – the
PolynomialTensor
to be expanded.- Devuelve:
The constructed operator.
- Tipo del valor devuelto:
- abstract classmethod from_terms(terms)[fuente]#
Constructs a new
SparseLabelOp
from a sequence returned byterms()
.
- get(k[, d]) D[k] if k in D, else d. d defaults to None. #
- induced_norm(order=1)[fuente]#
Returns the p-norm induced by the operator coefficients.
If the operator is represented as a sum of terms
\[\sum_i w_i H_i\]then the induced \(p\)-norm is
\[\left(\sum_i |w_i|^p \right)^{1/p}\]This is the standard \(p\)-norm of the operator coefficients considered as a vector (see https://en.wikipedia.org/wiki/Norm_(mathematics)#p-norm). Note that this method does not normal-order or simplify the operator before computing the norm; performing either of those operations can affect the result.
- Parámetros:
order (int) – Order \(p\) of the norm. The default value is 1.
- Devuelve:
The induced norm.
- Tipo del valor devuelto:
- Muestra:
ValueError – Operator contains parameters.
- Tipo del valor devuelto:
- is_parameterized()[fuente]#
Returns whether the operator contains any parameters.
- Tipo del valor devuelto:
- is_zero(tol=None)[fuente]#
Returns true if operator length is zero or all coefficients have value zero.
- items() a set-like object providing a view on D's items #
- keys() a set-like object providing a view on D's keys #
- classmethod one()[fuente]#
Constructs a unity-operator.
- Devuelve:
The unity-operator of the given length.
- Tipo del valor devuelto:
- parameters()[fuente]#
Returns a list of the parameters in the operator.
- Devuelve:
A list of the parameters in the operator.
- Tipo del valor devuelto:
list[qiskit.circuit.parameterexpression.ParameterExpression]
- permute_indices(permutation)[fuente]#
Permutes the indices of the operator.
This method applies the provided index permutation to all labels of this operator. The provided permutation must be a sequence of integers whose length is equal to the
register_length
of the operator. The integer at any given index of the sequence indicates the new index which that location will be permuted to. For example:op = SparseLabelOp({"+_0 -_1 +_2 -_3": 1.0}) permuted_op = op.permute_indices([3, 1, 0, 2]) assert permuted_op == SparseLabelOp({"+_3 -_1 +_0 -_2": 1.0})
Advertencia
This permutation utility is very powerful. Be mindful of the implications such a permutation might have on other components of the stack. To name an example, the builtin two-qubit reduction of the
ParityMapper
might not yield the expected results when used on permuted operator.- Parámetros:
permutation (Sequence[int]) – a sequence of integers indicating the permutation to be applied. See above for an example.
- Devuelve:
A new operator instance with the permuted indices.
- Muestra:
ValueError – if the length of the
permutation
argument does not equalregister_length
.- Tipo del valor devuelto:
- power(n)#
Return the compose of a operator with itself n times.
- Parámetros:
n (int) – the number of times to compose with self (n>0).
- Devuelve:
the n-times composed operator.
- Tipo del valor devuelto:
Clifford
- Muestra:
QiskitError – if the input and output dimensions of the operator are not equal, or the power is not a positive integer.
- round(decimals=0)[fuente]#
Rounds the operator coefficients to a specified number of decimal places.
- Parámetros:
decimals (int) – the number of decimal places to round coefficients to. By default this will round to the nearest integer value.
- Devuelve:
The rounded operator.
- Tipo del valor devuelto:
- abstract simplify(atol=None)[fuente]#
Simplify the operator.
The simplifications implemented by this method should be: - to eliminate terms whose coefficients are close (w.r.t.
atol
) to 0. - to combine the coefficients which correspond to equivalent terms (see also the note below)Nota
simplify()
should be used to simplify terms whose coefficients are close to zero, up to the specified numerical tolerance. It still differs slightly fromchop()
because that will chop real and imaginary part components individually.Nota
The meaning of «equivalence» between multiple terms depends on the specific operator subclass. As a restriction this method is required to preserve the order of appearance of the different components within a term. This avoids some possibly unexpected edge cases. However, this also means that some equivalencies cannot be detected. Check for other methods of a specific subclass which may affect the order of terms and can allow for further simplifications to be implemented.
This method returns a new operator (the original operator is not modified).
- Parámetros:
atol (float | None) – Absolute numerical tolerance. The default behavior is to use
self.atol
.- Devuelve:
The simplified operator.
- Tipo del valor devuelto:
- sort(*, weight=False)[fuente]#
Returns a new sorted operator.
- Parámetros:
weight (bool) – when True, the returned keys will sort this operator according to the coefficient weights of the stored terms; when False, the keys will sort the operator by its keys (i.e. lexicographically).
- Devuelve:
A new operator instance with its contents sorted.
- Tipo del valor devuelto:
- abstract tensor(other)[fuente]#
Returns the tensor product with another SparseLabelOp.
- Parámetros:
other (SparseLabelOp) – the other SparseLabelOp.
- Devuelve:
The operator resulting from the tensor product, \(self \otimes other\).
- Tipo del valor devuelto:
Nota
The tensor product can be obtained using the
^
binary operator. Hencea.tensor(b)
is equivalent toa ^ b
.
- abstract terms()[fuente]#
Provides an iterator analogous to
items()
but with the labels already split into pairs of operation characters and indices.- Campos:
A tuple with two items; the first one being a list of pairs of the form (char, int) where char represents the operation applied to the register and the integer corresponds to the register index on which the operator gets applied; the second item of the returned tuple is the coefficient of this term.
- Tipo del valor devuelto:
Iterator[tuple[list[tuple[str, int]], Union[complex, qiskit.circuit.parameterexpression.ParameterExpression]]]
- abstract transpose()[fuente]#
Returns the transpose of the operator.
- Devuelve:
The transpose of the operator.
- Tipo del valor devuelto:
- values() an object providing a view on D's values #